#     Copyright 2025, Kay Hayen, mailto:kay.hayen@gmail.com find license text at end of file


""" Code generation for slicing.

This is about slice lookups, assignments, and deletions. There is also a
special case, for using index values instead of objects. The slice objects
are also created here, and can be used for indexing.
"""

from nuitka.PythonVersions import python_version
from nuitka.States import states

from .CodeHelpers import (
    generateChildExpressionsCode,
    generateExpressionCode,
    generateExpressionsCode,
    withObjectCodeTemporaryAssignment,
)
from .ErrorCodes import getErrorExitBoolCode, getErrorExitCode
from .IndexCodes import (
    getIndexCode,
    getIndexValueCode,
    getMaxIndexCode,
    getMinIndexCode,
)


def _isSmallNumberConstant(node):
    if node.isNumberConstant():
        value = node.getCompileTimeConstant()
        return abs(int(value)) < 2**63 - 1
    else:
        return False


def _generateSliceRangeIdentifier(lower, upper, scope, emit, context):
    lower_name = context.allocateTempName(scope + "slicedel_index_lower", "Py_ssize_t")
    upper_name = context.allocateTempName(scope + "_index_upper", "Py_ssize_t")

    if lower is None:
        getMinIndexCode(to_name=lower_name, emit=emit)
    elif lower.isExpressionConstantRef() and _isSmallNumberConstant(lower):
        getIndexValueCode(
            to_name=lower_name, value=int(lower.getCompileTimeConstant()), emit=emit
        )
    else:
        value_name = context.allocateTempName(scope + "_lower_index_value")

        generateExpressionCode(
            to_name=value_name, expression=lower, emit=emit, context=context
        )

        getIndexCode(
            to_name=lower_name, value_name=value_name, emit=emit, context=context
        )

    if upper is None:
        getMaxIndexCode(to_name=upper_name, emit=emit)
    elif upper.isExpressionConstantRef() and _isSmallNumberConstant(upper):
        getIndexValueCode(
            to_name=upper_name, value=int(upper.getCompileTimeConstant()), emit=emit
        )
    else:
        value_name = context.allocateTempName(scope + "_upper_index_value")

        generateExpressionCode(
            to_name=value_name, expression=upper, emit=emit, context=context
        )

        getIndexCode(
            to_name=upper_name, value_name=value_name, emit=emit, context=context
        )

    return lower_name, upper_name


def _decideSlicing(lower, upper):
    return (lower is None or lower.isIndexable()) and (
        upper is None or upper.isIndexable()
    )


def generateSliceLookupCode(to_name, expression, emit, context):
    assert python_version < 0x300

    lower = expression.subnode_lower
    upper = expression.subnode_upper

    if _decideSlicing(lower, upper):
        lower_name, upper_name = _generateSliceRangeIdentifier(
            lower=lower, upper=upper, scope="slice", emit=emit, context=context
        )

        source_name = context.allocateTempName("slice_source")

        generateExpressionCode(
            to_name=source_name,
            expression=expression.subnode_expression,
            emit=emit,
            context=context,
        )

        with withObjectCodeTemporaryAssignment(
            to_name, "slice_result", expression, emit, context
        ) as result_name:
            _getSliceLookupIndexesCode(
                to_name=result_name,
                source_name=source_name,
                lower_name=lower_name,
                upper_name=upper_name,
                emit=emit,
                context=context,
            )
    else:
        source_name, lower_name, upper_name = generateExpressionsCode(
            names=("slice_source", "slice_lower", "slice_upper"),
            expressions=(
                expression.subnode_expression,
                expression.subnode_lower,
                expression.subnode_upper,
            ),
            emit=emit,
            context=context,
        )

        with withObjectCodeTemporaryAssignment(
            to_name, "slice_result", expression, emit, context
        ) as result_name:
            _getSliceLookupCode(
                to_name=result_name,
                source_name=source_name,
                lower_name=lower_name,
                upper_name=upper_name,
                emit=emit,
                context=context,
            )


def generateAssignmentSliceCode(statement, emit, context):
    assert python_version < 0x300

    lookup_source = statement.subnode_expression
    lower = statement.subnode_lower
    upper = statement.subnode_upper
    value = statement.subnode_source

    value_name = context.allocateTempName("sliceass_value")

    generateExpressionCode(
        to_name=value_name, expression=value, emit=emit, context=context
    )

    target_name = context.allocateTempName("sliceass_target")

    generateExpressionCode(
        to_name=target_name, expression=lookup_source, emit=emit, context=context
    )

    if _decideSlicing(lower, upper):
        lower_name, upper_name = _generateSliceRangeIdentifier(
            lower=lower, upper=upper, scope="sliceass", emit=emit, context=context
        )

        with context.withCurrentSourceCodeReference(
            value.getSourceReference()
            if states.is_full_compat
            else statement.getSourceReference()
        ):
            _getSliceAssignmentIndexesCode(
                target_name=target_name,
                lower_name=lower_name,
                upper_name=upper_name,
                value_name=value_name,
                emit=emit,
                context=context,
            )
    else:
        lower_name, upper_name = generateExpressionsCode(
            names=("sliceass_lower", "sliceass_upper"),
            expressions=(lower, upper),
            emit=emit,
            context=context,
        )

        with context.withCurrentSourceCodeReference(
            value.getSourceReference()
            if states.is_full_compat
            else statement.getSourceReference()
        ):
            _getSliceAssignmentCode(
                target_name=target_name,
                upper_name=upper_name,
                lower_name=lower_name,
                value_name=value_name,
                emit=emit,
                context=context,
            )


def generateDelSliceCode(statement, emit, context):
    assert python_version < 0x300

    target = statement.subnode_expression
    lower = statement.subnode_lower
    upper = statement.subnode_upper

    target_name = context.allocateTempName("slicedel_target")

    generateExpressionCode(
        to_name=target_name, expression=target, emit=emit, context=context
    )

    if _decideSlicing(lower, upper):
        lower_name, upper_name = _generateSliceRangeIdentifier(
            lower=lower, upper=upper, scope="slicedel", emit=emit, context=context
        )

        with context.withCurrentSourceCodeReference(
            (upper or lower or statement).getSourceReference()
            if states.is_full_compat
            else statement.getSourceReference()
        ):
            _getSliceDelIndexesCode(
                target_name=target_name,
                lower_name=lower_name,
                upper_name=upper_name,
                emit=emit,
                context=context,
            )
    else:
        lower_name, upper_name = generateExpressionsCode(
            names=("slicedel_lower", "slicedel_upper"),
            expressions=(lower, upper),
            emit=emit,
            context=context,
        )

        with context.withCurrentSourceCodeReference(
            (upper or lower or target).getSourceReference()
            if states.is_full_compat
            else statement.getSourceReference()
        ):
            _getSliceDelCode(
                target_name=target_name,
                lower_name=lower_name,
                upper_name=upper_name,
                emit=emit,
                context=context,
            )


def generateBuiltinSlice3Code(to_name, expression, emit, context):
    lower_name, upper_name, step_name = generateChildExpressionsCode(
        expression=expression, emit=emit, context=context
    )

    with withObjectCodeTemporaryAssignment(
        to_name, "slice_obj_value", expression, emit, context
    ) as result_name:
        emit(
            "%s = MAKE_SLICE_OBJECT3(tstate, %s, %s, %s);"
            % (
                result_name,
                lower_name,
                upper_name,
                step_name,
            )
        )

        getErrorExitCode(
            check_name=result_name,
            release_names=(lower_name, upper_name, step_name),
            needs_check=False,  # Note: Cannot fail
            emit=emit,
            context=context,
        )

        context.addCleanupTempName(result_name)


def generateBuiltinSlice2Code(to_name, expression, emit, context):
    lower_name, upper_name = generateChildExpressionsCode(
        expression=expression, emit=emit, context=context
    )

    with withObjectCodeTemporaryAssignment(
        to_name, "slice_obj_value", expression, emit, context
    ) as result_name:
        emit(
            "%s = MAKE_SLICE_OBJECT2(tstate, %s, %s);"
            % (
                result_name,
                lower_name,
                upper_name,
            )
        )

        getErrorExitCode(
            check_name=result_name,
            release_names=(lower_name, upper_name),
            needs_check=False,  # Note: Cannot fail
            emit=emit,
            context=context,
        )

        context.addCleanupTempName(result_name)


def generateBuiltinSlice1Code(to_name, expression, emit, context):
    (upper_name,) = generateChildExpressionsCode(
        expression=expression, emit=emit, context=context
    )

    with withObjectCodeTemporaryAssignment(
        to_name, "slice_obj_value", expression, emit, context
    ) as result_name:
        emit(
            "%s = MAKE_SLICE_OBJECT1(tstate, %s);"
            % (
                result_name,
                upper_name,
            )
        )

        getErrorExitCode(
            check_name=result_name,
            release_name=upper_name,
            needs_check=False,  # Note: Cannot fail
            emit=emit,
            context=context,
        )

        context.addCleanupTempName(result_name)


def _getSliceLookupCode(to_name, source_name, lower_name, upper_name, emit, context):
    emit(
        "%s = LOOKUP_SLICE(tstate, %s, %s, %s);"
        % (
            to_name,
            source_name,
            lower_name if lower_name is not None else "Py_None",
            upper_name if upper_name is not None else "Py_None",
        )
    )

    getErrorExitCode(
        check_name=to_name,
        release_names=(source_name, lower_name, upper_name),
        emit=emit,
        context=context,
    )

    context.addCleanupTempName(to_name)


def _getSliceLookupIndexesCode(
    to_name, lower_name, upper_name, source_name, emit, context
):
    emit(
        "%s = LOOKUP_INDEX_SLICE(%s, %s, %s);"
        % (to_name, source_name, lower_name, upper_name)
    )

    getErrorExitCode(
        check_name=to_name, release_name=source_name, emit=emit, context=context
    )

    context.addCleanupTempName(to_name)


def _getSliceAssignmentIndexesCode(
    target_name, lower_name, upper_name, value_name, emit, context
):
    res_name = context.getBoolResName()

    emit(
        "%s = SET_INDEX_SLICE(%s, %s, %s, %s);"
        % (res_name, target_name, lower_name, upper_name, value_name)
    )

    getErrorExitBoolCode(
        condition="%s == false" % res_name,
        release_names=(value_name, target_name),
        emit=emit,
        context=context,
    )


def _getSliceAssignmentCode(
    target_name, lower_name, upper_name, value_name, emit, context
):
    res_name = context.getBoolResName()

    emit(
        "%s = SET_SLICE(tstate, %s, %s, %s, %s);"
        % (
            res_name,
            target_name,
            lower_name if lower_name is not None else "Py_None",
            upper_name if upper_name is not None else "Py_None",
            value_name,
        )
    )

    getErrorExitBoolCode(
        condition="%s == false" % res_name,
        release_names=(target_name, lower_name, upper_name, value_name),
        emit=emit,
        context=context,
    )


def _getSliceDelIndexesCode(target_name, lower_name, upper_name, emit, context):
    res_name = context.getBoolResName()

    emit(
        "%s = DEL_INDEX_SLICE(%s, %s, %s);"
        % (res_name, target_name, lower_name, upper_name)
    )

    getErrorExitBoolCode(
        condition="%s == false" % res_name,
        release_name=target_name,
        emit=emit,
        context=context,
    )


def _getSliceDelCode(target_name, lower_name, upper_name, emit, context):
    res_name = context.getBoolResName()

    emit(
        "%s = DEL_SLICE(tstate, %s, %s, %s);"
        % (
            res_name,
            target_name,
            lower_name if lower_name is not None else "Py_None",
            upper_name if upper_name is not None else "Py_None",
        )
    )

    getErrorExitBoolCode(
        condition="%s == false" % res_name,
        release_names=(target_name, lower_name, upper_name),
        emit=emit,
        context=context,
    )


#     Part of "Nuitka", an optimizing Python compiler that is compatible and
#     integrates with CPython, but also works on its own.
#
#     Licensed under the Apache License, Version 2.0 (the "License");
#     you may not use this file except in compliance with the License.
#     You may obtain a copy of the License at
#
#        http://www.apache.org/licenses/LICENSE-2.0
#
#     Unless required by applicable law or agreed to in writing, software
#     distributed under the License is distributed on an "AS IS" BASIS,
#     WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
#     See the License for the specific language governing permissions and
#     limitations under the License.
